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Isolation of Myeloid-derived Suppressor Cells from Mouse Tumor and Determining Their Migration Potential In Vitro
In This Article
Summary
This article outlines the procedures to isolate myeloid-derived suppressor cells from mouse solid tumors and perform an in vitro assay with the cells to determine their response migration potential to certain soluble factors like cytokines and chemokines.
Abstract
The importance of the immune response in cancer and other diseases (like diabetes mellitus, alzheimers, cystic fibrosis) is now known, and the manipulation of the immune system as a therapy to treat cancer is gaining attention. The immune system regulates tumorigenesis both negatively and positively. The myeloid-derived suppressor cells (MDSCs) are a population of immune cells that are increased during cancer, inflammation, and infection. These cells influence the immune response and effectively suppresses the anti-tumor T cell response. They serve as potential targets for therapeutic intervention to effectively use the immune system to inhibit tumorigenesis. To better understand how such intervention can be applied it is important to study these cell types. Using mouse ovarian tumors, we describe the isolation of MDSCs from solid tissue using gentle dissociation techniques. We further describe how MDSCs are isolated from such dissociated tissue based on the expression of cell surface markers with the help of flow cytometry. Additionally, we describe the procedure to perform an in vitro MDSC migration assay to determine the migration potential of these cells in response to soluble factors like cytokines and chemokines.
Introduction
In recent years a number of studies have focused on understanding the role of immune cells in cancer development and progression. One way by which tumor cells evade the immune system is through the expression of immunosuppressive factors that activate, upregulate, and attract immune suppressive cells like MDSCs in the tumor microenvironment1.
MDSCs are a population of immature myeloid cells that are generated in the bone marrow. Under normal conditions, these immature cells differentiate into mature myeloid cells like macrophages, monocytes, or dendritic cells2. Under pathologic condition, the....
Protocol
All procedures were performed under the guidance of University of Texas at MD Anderson IACUC review board.
1. Reagent Preparation
- Preparation of medium for migration assay
- Prepare 500 mL of complete RPMI media for the migration assay: RPMI medium supplemented with 10% heat-inactivated fetal bovine serum (FBS) and 1% pen-strep (penicillin 500 U/mL and streptomycin 500 µg/mL).
- Preparation of buffers for staining MDSCs<.......
Representative Results
Here, we present results obtained from the isolation of MDSCs from mouse ovarian tumors20. Following the procedure described above, we isolated single cells and stained them for MDSCs. MDSCs in the tumors were labeled with APC-Cy7-CD45, FITC-GR1, PE-CD11b. To elucidate the MDSC population, these cells can be further stained with Ly6C and Ly6G, as shown in the gating strategy in Figure 1. Labeled cells were sorted by flow cytometry. Lab.......
Discussion
We have described the methodology to isolate MDSCs from mouse ovarian tumor. The same method can be utilized for isolating MDSCs or other immune cells from any solid normal tissue or solid tumor using cell-specific markers. Additionally, depending on the nature of the tissue the incubation time with the dissociation buffer will need to be optimized.
The isolation of viable immune cells from tumor tissue depends on performing the different isolation steps from dissecting tumors to obtain the so.......
Acknowledgements
This work was supported by the Ann and Sol Schreiber Mentored Investigator Award (POE/DF/02.2011) awarded to SS.
....Materials
| Name | Company | Catalog Number | Comments |
| Collagenase IV | Thermo Fisher | 17104019 | Tumor dissociation |
| Cell strainer | Falcon | 352350 | Cell strain |
| RBC lysis buffer | Biolegend | 420301 | Cell culture medium |
| DMEM+Glutamax | Gibco | 10569010 | Cell culture medium |
| RPMI | Gibco | 11875093 | Cell culture medium |
| FBS | Gibco | 10082147 | Serum for Cell culture |
| Phosphate Buffered Saline (PBS) | Sigma | D8537-500ML | PBS |
| Trypsin | Invitrogen | 25200-056 | Cell dissociation |
| Penstrep | HyClone | SV30010 | Antibiotic |
| Sterile water | Invitrogen | 10977-015 | For dilution of buffers |
| BV605-CD11b | Biolegend | 101237 | Antibody for MDSC labeling |
| FITC-GR1 | Biolegend | 108405 | Antibody for MDSC labeling |
| APC-Cy7-CD45 | Biolegend | 103115 | Antibody for lymphocyte labeling |
| PE-Cy7-Ly6C | Biolegend | 128017 | Antibody for MDSC labeling |
| APC-Ly6G | Biolegend | 127613 | Antibody for MDSC labeling |
| TNFα | Sigma | T7539 | Cytokine |
| TNFα neutralizing antibody | Biolegend | 506309 | neutralizing antibody |
| Ghost Dye Violet 450 | Tonbo Biosciences | 13-0863 | Cell viability dye |
| UltraComp Beads | Invitrogen | 01-2222-42 | Compensation beads |
| Cell culture inserts | Corning | 353097 | Migration chamber |
| LSR Fortessa X-20 | BD Biosciences | LSR Fortessa X-20 | Fluorescent Cell analyzer |
| BD FACSAria Fusion | BD Biosciences | BD FACSAria Fusion | Fluorescent Cell sorter |
| Cell countess | Cell countess | Cell countess | Cell countess |
| Flow Jo | Software for Analysis of flow data | ||
| Prism | Plotting of graph and statistical analysis | ||
| C57BL/6 mice | Taconic | B6-F | mice for tumor generation |
References
- Sevko, A., Umansky, V. Myeloid-derived suppressor cells interact with tumors in terms of myelopoiesis, tumorigenesis and immunosuppression: thick as thieves. J Cancer. 4 (1), 3-11 (2013).
- Gabrilovich, D. I., Ostrand-Rosenberg, S., Bronte, V.
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